Coastal Foraging and Conservation

Coastal Conservation

Many foods can be found a these locations, but always remember to only take what you need and leave the area as you have found it.
The UK coastline is one of the largest in Europe and is host to a wide range of habitats. From machair to cliffs to salt marsh, providing homes for everything from plants to birds.

Without these habitats the UK would lose a massive population of its total wildlife.Some coastal areas are now protected, either because of birds, flowers, insects, grasses and even due to the importance of the marine ecology under the waves.

Vegetation of drift lines occurs on deposits of shingle lying at or above mean high-water spring tides. These shingle deposits occur as fringing beaches that are subject to periodic displacement or over topping by high tides and storms. The distinctive vegetation, which may form only sparse cover, is therefore ephemeral and composed of annual or short-lived perennial species. This type of habitat is found all around the UK coastline.
Vegetated shingle consists of sediment with particle sizes in the range of 2-200 mm on which plant communities develop. The vegetation consists occurring on shingle will depend on the hydrology of a particular site and the amount of finer sediment within the shingle. Typically, the seaward edge harbours pioneer species – more resistant to wind and exposure to sea spray – such as sea kale (Crambe maritima). Further form the fringe, conditions allows other plant communities to develop. Where the water table is close to the shingle surface, wetlands plant communities can develop. This habitat can be quite extensive such as can be seen at Dungeness. Vegetated shingle is a very important for some of our breeding birds such as oyster catchers, terns as well as some gull species. The UK holds a significant part of the European resource of this habitat which is widespread along our coasts.

Hard cliffs are rocky slopes fringing hard coasts, created by past or present marine erosion, and supporting a wide diversity of vegetation types with variable maritime influence. Hard cliffs, with vertical or very steep faces, are characteristic of hard igneous, metamorphic and sedimentary rocks and also of chalk, which, although a soft rock, nevertheless forms vertical cliffs.
Soft cliffs are slopes fringing soft coasts, created by past or present marine erosion, and supporting a wide diversity of vegetation types with variable maritime influence. Soft cliffs have a sloping or slumped profile, often with a distinct under cliff; they occur on a range of soft rocks, or on hard rocks interspersed with softer deposits. The more mobile soft cliffs occur where there are unstable soft deposits such as mud stones or glacial drift deposits. They may be subject to mudslides or landslips, which create complexes of pioneer and more mature vegetation.

Pioneer salt-marsh colonises intertidal mud and sand flats in areas protected from strong wave action and is an important precursor to the development of more stable salt-marsh vegetation. It develops at the lower reaches of salt marshes where the vegetation (mainly pioneer Salicornia species and Spartina maritima) is frequently flooded by the tide, and can also colonise open creek sides, depressions or pans with salt marshes, as well as disturbed areas of up salt marshes.
Lower salt-marsh is inundated at least once a day due to tidal action and so support plant communities that are more salt tolerant that those found in the upper marsh.
Upper salt-marsh is found where halophytic vegetation colonises soft intertidal sediments of mud and sand in areas protected from strong wave action. Tidal inundation can still occurs but with decreasing frequency and duration compared to lower areas in the salt-marsh. The vegetation varies with climate and the frequency and duration of tidal inundation. Grazing by domestic livestock is particularly significant in determining the structure and species composition of the habitat type and in determining its relative value for plants, invertebrates and wintering or breeding waterfowl. This habitat occurs all around our coasts, but most of the sites where it is found are in England.
Transitional salt-marsh occurs where there is a transition from salt-marsh to dunes or shingle.

Embryo dunes are created by the aggregation of wind blown sand trapped by debris and vegetation along the strand line. These very unstable dunes are colonised by salt tolerant plants like sea rocket (Cakile maritima). As they grow and are less at risk form being washed away by high tides, more plants can colonise and it gradually evolves into a mobile dune.
Mobile (‘white’ or ‘yellow’) dunes are unstable dunes where there is active sand movement. They are less salty than the embryo dunes and are constantly replenished with fresh sand. They are colonised by plants like marram grass Ammophila arenaria or Lyme grass Leymus arenarius. They are called ‘white’ or ‘yellow’ dune because there are bare patches of sand visible in between the vegetated areas.

Fixed (‘grey’) dunes occur widely around the coasts of the UK and are a major component of many sand dune systems. They are not replenished with fresh sand so that the sand is no longer accumulating. They support a greater diversity of plants that will contribute to stabilising the dunes. They develop landwards of the white dunes.

Dune slacks are low-lying areas within dune systems that are seasonally flooded and where nutrient levels are low. They occur primarily on the larger dune systems in the UK, especially in the west and north, where the wetter climate favours their development when compared with the generally warmer and/or drier dune systems of continental Europe. The range of communities found is considerable and depends on the structure of the dune system, the successional stage of the dune slack, the chemical composition of the dune sand, and the prevailing climatic conditions. Dune slacks are important features for species like the Natter jack toad Epidalea calamita as well as many scarce invertebrates.

Dunes with Juniper comprise occurrences of common juniperJuniperus communis scrub on coastal sand dunes in a variety of situations. Both prostrate and erect forms of juniper can be found. Stands are usually very small and are intimately mixed with other habitat types, including dune grassland and heath. There is complete range from discrete stands to more scattered and occasional individuals, which occur within habitat types defined as fixed dunes. In the UK, dunes with Juniper only occur in Scotland.

Dunes with sea buckthorn comprise scrub vegetation on more-or-less stable sand dunes in which sea-buckthorn Hippophaë rhamnoides is abundant. Sea buckthorn may either form dense thickets, with sparse nitrophilous associates such as common nettle Urtica dioica, or occur as more scattered bushes interspersed with various grasses, typically marram Ammophila arenaria and red fescue Festuca rubra, and associated herbs of dune grassland. This form of dune vegetation is mainly found on Atlantic coasts in the EU. In the UK, the native distribution of Hippophaë is considered to be ranging patchily from Dunbar on the east coast of Scotland down to Dungeness/Camber in Sussex.

Machair is a distinctive sand dune formation formed when sand with a high shell content is blown onshore onto a low-lying coastal plain. Vegetation develops that is typical of calcareous to neutral sandy grassland. Traditionally, machair supports extensive grazing regimes and unique forms of cultivation that rely on low-intensity systems of rotational cropping. This habitat type also supports large breeding bird populations and is particularly important for waders and corncrake Crex crex. Machair is found nowhere else in the world but the north and west of Scotland and western Ireland.
These habitats are under threat from a number of sources, and damage is being reduced by many organisations, which have teams of paid staff and volunteers to look after these areas for future use by the public for educational purposes, but mainly for the continual use of the habitats by the flora and fauna which need them to be able to survive. The process of conservation for these areas, is to remove or reduce non native plants, animals and insects and increase populations of the natives to improve and continue their sustainability.


2 Responses to “Coastal Foraging and Conservation”

  • Connor says:

    I like the valuable information you provide in your articles.
    I will bookmark your weblog and check again here frequently.
    I’m fairly sure I will be informed many new stuff proper right here! Best of luck for the next!

    my web blog – st augustine grass seed (Connor)

  • Good day I am so grateful I found your web site,
    I really found you by mistake, while I was looking on Bing for
    something else, Nonetheless I am here now and would just like to say thanks for a marvelous post and
    a all round enjoyable blog (I also love the theme/design), I don’t have time
    to look over it all at the minute but I have bookmarked it and also included your RSS feeds, so when I have time I will be
    back to read a lot more, Please do keep up the great

    Feel free to visit my web-site …

Leave a Reply

This site uses Akismet to reduce spam. Learn how your comment data is processed.

Powered by and